| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Anton Protopopov | 1695 | 100.00% | 1 | 100.00% |
| Total | 1695 | 1 |
// SPDX-License-Identifier: GPL-2.0 #include "vmlinux.h" #include <bpf/bpf_helpers.h> #include <bpf/bpf_tracing.h> #include <bpf/bpf_core_read.h> #include "bpf_misc.h" __u64 in_user; __u64 ret_user; int pid; /* * Skip all the tests if compiler doesn't support indirect jumps. * * If tests are skipped, then all functions below are compiled as * dummy, such that the skeleton looks the same, and the userspace * program can avoid any checks rather than if data->skip is set. */ #ifdef __BPF_FEATURE_GOTOX __u64 skip SEC(".data") = 0; #else __u64 skip = 1; #endif struct simple_ctx { __u64 x; }; #ifdef __BPF_FEATURE_GOTOX __u64 some_var; /* * This function adds code which will be replaced by a different * number of instructions by the verifier. This adds additional * stress on testing the insn_array maps corresponding to indirect jumps. */ static __always_inline void adjust_insns(__u64 x) { some_var ^= x + bpf_jiffies64(); } SEC("syscall") int one_switch(struct simple_ctx *ctx) { switch (ctx->x) { case 0: adjust_insns(ctx->x + 1); ret_user = 2; break; case 1: adjust_insns(ctx->x + 7); ret_user = 3; break; case 2: adjust_insns(ctx->x + 9); ret_user = 4; break; case 3: adjust_insns(ctx->x + 11); ret_user = 5; break; case 4: adjust_insns(ctx->x + 17); ret_user = 7; break; default: adjust_insns(ctx->x + 177); ret_user = 19; break; } return 0; } SEC("syscall") int one_switch_non_zero_sec_off(struct simple_ctx *ctx) { switch (ctx->x) { case 0: adjust_insns(ctx->x + 1); ret_user = 2; break; case 1: adjust_insns(ctx->x + 7); ret_user = 3; break; case 2: adjust_insns(ctx->x + 9); ret_user = 4; break; case 3: adjust_insns(ctx->x + 11); ret_user = 5; break; case 4: adjust_insns(ctx->x + 17); ret_user = 7; break; default: adjust_insns(ctx->x + 177); ret_user = 19; break; } return 0; } SEC("fentry/" SYS_PREFIX "sys_nanosleep") int simple_test_other_sec(struct pt_regs *ctx) { __u64 x = in_user; if (bpf_get_current_pid_tgid() >> 32 != pid) return 0; switch (x) { case 0: adjust_insns(x + 1); ret_user = 2; break; case 1: adjust_insns(x + 7); ret_user = 3; break; case 2: adjust_insns(x + 9); ret_user = 4; break; case 3: adjust_insns(x + 11); ret_user = 5; break; case 4: adjust_insns(x + 17); ret_user = 7; break; default: adjust_insns(x + 177); ret_user = 19; break; } return 0; } SEC("syscall") int two_switches(struct simple_ctx *ctx) { switch (ctx->x) { case 0: adjust_insns(ctx->x + 1); ret_user = 2; break; case 1: adjust_insns(ctx->x + 7); ret_user = 3; break; case 2: adjust_insns(ctx->x + 9); ret_user = 4; break; case 3: adjust_insns(ctx->x + 11); ret_user = 5; break; case 4: adjust_insns(ctx->x + 17); ret_user = 7; break; default: adjust_insns(ctx->x + 177); ret_user = 19; break; } switch (ctx->x + !!ret_user) { case 1: adjust_insns(ctx->x + 7); ret_user = 103; break; case 2: adjust_insns(ctx->x + 9); ret_user = 104; break; case 3: adjust_insns(ctx->x + 11); ret_user = 107; break; case 4: adjust_insns(ctx->x + 11); ret_user = 205; break; case 5: adjust_insns(ctx->x + 11); ret_user = 115; break; default: adjust_insns(ctx->x + 177); ret_user = 1019; break; } return 0; } SEC("syscall") int big_jump_table(struct simple_ctx *ctx __attribute__((unused))) { const void *const jt[256] = { [0 ... 255] = &&default_label, [0] = &&l0, [11] = &&l11, [27] = &&l27, [31] = &&l31, }; goto *jt[ctx->x & 0xff]; l0: adjust_insns(ctx->x + 1); ret_user = 2; return 0; l11: adjust_insns(ctx->x + 7); ret_user = 3; return 0; l27: adjust_insns(ctx->x + 9); ret_user = 4; return 0; l31: adjust_insns(ctx->x + 11); ret_user = 5; return 0; default_label: adjust_insns(ctx->x + 177); ret_user = 19; return 0; } SEC("syscall") int one_jump_two_maps(struct simple_ctx *ctx __attribute__((unused))) { __label__ l1, l2, l3, l4; void *jt1[2] = { &&l1, &&l2 }; void *jt2[2] = { &&l3, &&l4 }; unsigned int a = ctx->x % 2; unsigned int b = (ctx->x / 2) % 2; volatile int ret = 0; if (!(a < 2 && b < 2)) return 19; if (ctx->x % 2) goto *jt1[a]; else goto *jt2[b]; l1: ret += 1; l2: ret += 3; l3: ret += 5; l4: ret += 7; ret_user = ret; return ret; } SEC("syscall") int one_map_two_jumps(struct simple_ctx *ctx __attribute__((unused))) { __label__ l1, l2, l3; void *jt[3] = { &&l1, &&l2, &&l3 }; unsigned int a = (ctx->x >> 2) & 1; unsigned int b = (ctx->x >> 3) & 1; volatile int ret = 0; if (ctx->x % 2) goto *jt[a]; if (ctx->x % 3) goto *jt[a + b]; l1: ret += 3; l2: ret += 5; l3: ret += 7; ret_user = ret; return ret; } /* Just to introduce some non-zero offsets in .text */ static __noinline int f0(volatile struct simple_ctx *ctx __arg_ctx) { if (ctx) return 1; else return 13; } SEC("syscall") int f1(struct simple_ctx *ctx) { ret_user = 0; return f0(ctx); } static __noinline int __static_global(__u64 x) { switch (x) { case 0: adjust_insns(x + 1); ret_user = 2; break; case 1: adjust_insns(x + 7); ret_user = 3; break; case 2: adjust_insns(x + 9); ret_user = 4; break; case 3: adjust_insns(x + 11); ret_user = 5; break; case 4: adjust_insns(x + 17); ret_user = 7; break; default: adjust_insns(x + 177); ret_user = 19; break; } return 0; } SEC("syscall") int use_static_global1(struct simple_ctx *ctx) { ret_user = 0; return __static_global(ctx->x); } SEC("syscall") int use_static_global2(struct simple_ctx *ctx) { ret_user = 0; adjust_insns(ctx->x + 1); return __static_global(ctx->x); } SEC("fentry/" SYS_PREFIX "sys_nanosleep") int use_static_global_other_sec(void *ctx) { if (bpf_get_current_pid_tgid() >> 32 != pid) return 0; return __static_global(in_user); } __noinline int __nonstatic_global(__u64 x) { switch (x) { case 0: adjust_insns(x + 1); ret_user = 2; break; case 1: adjust_insns(x + 7); ret_user = 3; break; case 2: adjust_insns(x + 9); ret_user = 4; break; case 3: adjust_insns(x + 11); ret_user = 5; break; case 4: adjust_insns(x + 17); ret_user = 7; break; default: adjust_insns(x + 177); ret_user = 19; break; } return 0; } SEC("syscall") int use_nonstatic_global1(struct simple_ctx *ctx) { ret_user = 0; return __nonstatic_global(ctx->x); } SEC("syscall") int use_nonstatic_global2(struct simple_ctx *ctx) { ret_user = 0; adjust_insns(ctx->x + 1); return __nonstatic_global(ctx->x); } SEC("fentry/" SYS_PREFIX "sys_nanosleep") int use_nonstatic_global_other_sec(void *ctx) { if (bpf_get_current_pid_tgid() >> 32 != pid) return 0; return __nonstatic_global(in_user); } #else /* __BPF_FEATURE_GOTOX */ #define SKIP_TEST(TEST_NAME) \ SEC("syscall") int TEST_NAME(void *ctx) \ { \ return 0; \ } SKIP_TEST(one_switch); SKIP_TEST(one_switch_non_zero_sec_off); SKIP_TEST(simple_test_other_sec); SKIP_TEST(two_switches); SKIP_TEST(big_jump_table); SKIP_TEST(one_jump_two_maps); SKIP_TEST(one_map_two_jumps); SKIP_TEST(use_static_global1); SKIP_TEST(use_static_global2); SKIP_TEST(use_static_global_other_sec); SKIP_TEST(use_nonstatic_global1); SKIP_TEST(use_nonstatic_global2); SKIP_TEST(use_nonstatic_global_other_sec); #endif /* __BPF_FEATURE_GOTOX */ char _license[] SEC("license") = "GPL";
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